CN220632976U - Plug board and plug animal model - Google Patents

Abstract

The utility model relates to a jigsaw plate and a jigsaw animal model, wherein the jigsaw plate comprises a plate body, a plurality of closed patterns are formed on the plate body, the closed patterns are suitable for being separated from the plate body under the action of external force and are spliced into the animal model, and the animal model comprises: the body part is of a cavity structure; a head part including an upper jaw part and a lower jaw part hinged to a front side of the body part; a tail portion hinged to a rear side of the body portion; a manipulation part inserted into the body part and hinged thereto; the transmission mechanism is positioned in the body part and connected with the operating part, the upper jaw part, the lower jaw part and the tail part, and when the operating part is operated to rotate relative to the body part, the transmission mechanism can drive the upper jaw part and the lower jaw part to do opening and closing movement, and the tail part swings up and down relative to the body part. The splicing board can be used for splicing to form an animal model, can be used as a controllable animal toy, has high flexibility, various playing methods and high interestingness, and can attract the attention of children.

Description

Plug board and plug animal model

Technical Field

The utility model relates to the technical field of models, in particular to a spliced board and a spliced animal model.

Background

The spliced board can be spliced to obtain the intelligent toy with the sense of unity and the sense of three-dimension, the manual capability of a user can be trained, particularly the sense of feeling and the increase of vision of children are induced, the intelligent development of the children is greatly beneficial, the intelligent development of the children is an indispensable teaching aid in the growth period of the children, and the assembled spliced model can be used as a ornament and can improve the attractiveness of indoor environments.

However, the existing splicing boards are generally limited to a simple splicing combination mode, the playing method is single, the interestingness is low, and children are difficult to keep attentiveness for a long time.

Disclosure of Invention

Therefore, the utility model aims to overcome the defects of single playing method and low interest of the spliced board in the prior art, thereby providing the spliced board with more various playing methods and high interest, and attracting the attention of children.

In order to solve the above-mentioned problems, a first aspect of the present utility model provides a patch panel, which is characterized by comprising a panel body, wherein a plurality of closed patterns are formed on the panel body, the closed patterns are suitable for being separated from the panel body under the action of external force, and are spliced into an animal model, and the animal model comprises:

the body part is of a cavity structure;

a head part including an upper jaw part and a lower jaw part hinged to a front side of the body part;

a tail portion hinged to a rear side of the body portion;

a manipulation part inserted into the body part and hinged thereto;

the transmission mechanism is positioned in the body part and connected with the operating part, the upper jaw part, the lower jaw part and the tail part, and when the operating part is operated to rotate relative to the body part, the transmission mechanism can drive the upper jaw part and the lower jaw part to do opening and closing movement, and the tail part swings up and down relative to the body part.

Further, the control part comprises a crankshaft with a rotation axis parallel to the rotation axes of the upper jaw part and the lower jaw part, a first bending part and a second bending part are formed on the crankshaft, the transmission mechanism comprises a first connecting rod, a second connecting rod, a third connecting rod and a fourth connecting rod, the first end of the first connecting rod is hinged with the first bending part of the crankshaft, the first end of the second connecting rod is hinged with the second end of the first connecting rod, the second end of the second connecting rod is fixedly connected with the upper jaw part, the first end of the third connecting rod is hinged with the second bending part of the crankshaft, the first end of the fourth connecting rod is hinged with the second end of the third connecting rod, and the second end of the fourth connecting rod is fixedly connected with the lower jaw part.

Further, the transmission mechanism further comprises a fifth connecting rod, the first end of the fifth connecting rod is hinged with the second end of the first connecting rod, and the second end of the fifth connecting rod is fixedly connected with the jaw part.

Further, at least one end of the first, second, third, fourth and fifth links is formed with a connection ring.

Further, the transmission mechanism further comprises a first hinge shaft penetrating through the hinge position of the first connecting rod and the second connecting rod and a second hinge shaft penetrating through the hinge position of the third connecting rod and the fourth connecting rod, the first hinge shaft and the second hinge shaft comprise rotating shaft portions and anti-falling plates inserted into the first ends of the rotating shaft portions, the rotating shaft portions comprise at least two shaft portions, insertion joints extending along the length direction of the at least one shaft portion are formed at one end of the at least one shaft portion, and the shaft portions are formed by the mutual insertion of the shaft portions through the insertion joints.

Further, the crankshaft includes a clamping plate and a plurality of base plates arranged in a stacked manner, the base plates being formed with insertion joints, clamping protrusions being formed at both ends of the clamping plate, respectively, the clamping plate being adapted to be inserted into the insertion joints and to cause the two clamping protrusions to clamp the base plates.

Further, the control part further comprises a holding part arranged at one end of the crankshaft, the holding part comprises a limiting plate and a control handle, a first limiting notch and a second limiting notch are formed in the limiting plate, the first limiting notch is suitable for accommodating and limiting the end part of the crankshaft, and the second limiting notch is suitable for accommodating and limiting the control handle.

Further, the body part comprises a first box body and a second box body which are sequentially connected from top to bottom, the first box body is communicated with the second box body, and the cross section area of the second box body is smaller than that of the first box body.

Further, a first avoidance notch is formed on the front side of the first box body, the head further comprises a first adapter plate, a first hinge hole and a second hinge hole which are sequentially arranged in the height direction are formed on the first adapter plate, a plug joint is formed on one of the first adapter plate and the mouth wall of the first avoidance notch, a plug convex part which is suitable for being inserted into the plug joint is formed on the other of the first adapter plate and the mouth wall of the first avoidance notch, a first hinge convex part which is suitable for being hinged with the first hinge hole is formed on the upper jaw part, and a second hinge convex part which is suitable for being hinged with the second hinge hole is formed on the lower jaw part; and/or the number of the groups of groups,

the rear side of the first box body is provided with a second avoidance gap, the tail part further comprises a tail part main body and a second adapter plate, a third hinge hole is formed in the second adapter plate, an inserting joint is formed in one of the second adapter plate and the opening wall of the second avoidance gap, an inserting convex part suitable for being inserted into the inserting joint is formed in the other of the second adapter plate and the opening wall of the second avoidance gap, and a third hinge convex part suitable for being hinged with the third hinge hole is formed in the tail part main body.

In a second aspect, the utility model provides a mosaic animal model comprising:

the body part is of a cavity structure;

a head including an upper jaw and a lower jaw hinged to a front side of the body;

a tail portion hinged to a rear side of the body portion;

a manipulation part inserted into the body part and hinged thereto;

the transmission mechanism is positioned in the body part and connected with the operating part, the upper jaw part, the lower jaw part and the tail part, and when the operating part is operated to rotate relative to the body part, the transmission mechanism can drive the upper jaw part and the lower jaw part to do opening and closing movement, and the tail part swings up and down relative to the body part.

The utility model has the following advantages:

the animal model spliced by the spliced plates provided by the embodiment of the utility model is provided with the head part, the tail part, the transmission mechanism and the operating part, and a user can drive the operating part after finishing the splicing and combination of the animal model, so that the transmission mechanism drives the upper jaw part and the lower jaw part to do opening and closing movement, and the tail part swings up and down relative to the body part. Therefore, the splice plate can be used for splicing and forming an animal model, can be used as a controllable animal toy, and has higher flexibility. Therefore, the utility model can overcome the defects of single playing method and low interest of the prior art, has various playing methods and high interest, and can attract children more.

The spliced animal model provided by the embodiment of the utility model is provided with the head part, the tail part, the transmission mechanism and the control part, and a user can drive the control part after the splicing and the combination of the animal model are completed, so that the transmission mechanism drives the upper jaw part and the lower jaw part to do opening and closing movement, and the tail part swings up and down relative to the body part. Therefore, the spliced animal model provided by the embodiment of the utility model has the advantages of higher flexibility and higher interestingness, and can attract the attention of children.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 shows an animal model populated with patch panels according to an embodiment of the present utility model;

FIG. 2 is a schematic view of an animal model assembled by the patch panels according to an embodiment of the present utility model in use, with side panels of a body part thereof hidden for convenience in displaying the internal structure of the animal model;

FIG. 3 is a schematic view of an animal model assembled by the patch panels according to an embodiment of the present utility model in use, with side panels of a body part thereof hidden for convenience in displaying the internal structure of the animal model;

FIG. 4 schematically illustrates a schematic view of an animal model assembled from patch panels according to an embodiment of the present utility model in use, with side panels of a body part thereof hidden for ease of illustration of the internal structure of the animal model;

fig. 5 is a schematic view of an animal model assembled by the patch panels according to an embodiment of the present utility model in use, in which side panels of a body part of the animal model are hidden for convenience in displaying the internal structure of the animal model.

Reference numerals illustrate:

1. a body part; 12. a first case; 121. the first avoidance notch; 122. a second avoidance gap; 13. a second case; 21. an upper jaw portion; 211. a first hinge protrusion; 22. a lower jaw portion; 221. a second hinge protrusion; 23. a first adapter plate; 231. a first hinge hole; 232. a second hinge hole; 3. tail part; 31. a second adapter plate; 311. a third hinge hole; 32. a tail body; 33. a third hinge protrusion; 41. a crankshaft; 411. a first bending part; 412. a second bending part; 413. a substrate; 414. a clamping plate; 415. a clamping protrusion; 421. a limiting plate; 422. the first limiting notch; 423. the second limiting notch; 424. a handle; 51. a first link; 52. a second link; 53. a third link; 54. a fourth link; 55. a fifth link; 56. a connecting ring; 57. a first hinge shaft; 58. a second hinge shaft; 571. an anti-drop plate; 572. a shaft plate; 6. and (5) inserting seams.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Example 1

FIG. 1 shows an animal model populated with patch panels in accordance with an embodiment of the present utility model. FIG. 2 is a schematic view of an animal model assembled by the patch panels according to an embodiment of the present utility model, with side panels of a body part thereof hidden for convenience in displaying the internal structure of the animal model. As shown in fig. 1 and 2, the patch panel of the present embodiment mainly includes a panel body. A plurality of closed patterns are formed on the plate body. The closed graph is suitable for being separated from the plate body under the action of external force and spliced into an animal model. The animal model comprises a body part 1, a head part, a tail part 3, a control part and a transmission mechanism. Wherein the body part 1 is of a cavity structure. The head comprises an upper jaw 21 and a lower jaw 22 hinged to the front side of the body part 1. The tail 3 is hinged to the rear side of the body part 1. The operating portion 4 is inserted into the body portion 1 and hinged to the body portion 1. The transmission mechanism is located within the body part 1. The transmission mechanism is connected with the operating part, the upper jaw part 21, the lower jaw part 22 and the tail part 3, and when the operating part is operated to rotate relative to the body part 1, the transmission mechanism can drive the upper jaw part 21 and the lower jaw part 22 to perform opening and closing movement, and the tail part 3 swings up and down relative to the body part 1.

The closed graph is optionally formed by enclosing a broken line or a solid line drawn on the board body, and at the moment, a user can cut the board body along the edge of the closed graph by using tools such as scissors or a utility knife, so that the closed graph is separated from the board body. The plate body can also be formed with an indentation or a scratch processed by stamping and other processes, the closed graph is enclosed by the indentation or the scratch, and at the moment, a user can separate the closed graph from the plate body in a pressing mode.

The animal model spliced by the splicing plates of the embodiment is provided with a head part, a tail part 3, a transmission mechanism and an operating part. After the assembly and combination of the animal model are completed, a user can drive the control part, so that the transmission mechanism drives the upper jaw part 21 and the lower jaw part 22 to do opening and closing movement, and the tail part 3 swings up and down relative to the body part 1. Therefore, the splice plate can be used for splicing and forming an animal model, can be used as a controllable animal toy, and has higher flexibility. Therefore, the utility model can overcome the defects of single playing method and low interest of the prior art, has various playing methods and high interest, and can attract children more.

The splice plate is selected from paper, wood plate and plastic plate. Preferably, in the present embodiment, the patch panel is made of an environmentally friendly high strength cardboard, and the animal model of the present embodiment can stably run 10000 turns and continue running for 500 minutes when the user drives the manipulating part at a speed of 20 turns per minute. When the jigsaw plate is a paper plate, a user can also use the painting brush to color the jigsaw plate, so that the attractiveness of the animal model is improved, and the playability of the animal model is also improved.

The manipulation part may optionally include a driving gear and a rotation shaft passing through the driving gear. The transmission mechanism may be a gear set meshed with the driving gear. Preferably, in the present embodiment, the operating portion 4 includes a crankshaft 41 having a rotational axis parallel to the upper jaw 21 and the lower jaw 22. The crankshaft 41 has a first bent portion 411 and a second bent portion 412 formed thereon. The transmission mechanism 5 includes a first link 51, a second link 52, a third link 53, and a fourth link 54. The first end of the first link 51 is hinged to the first bent portion 411 of the crankshaft 41. The first end of the second link 52 is hinged to the second end of the first link 51. The second end of the second link 52 is fixedly coupled to the upper jaw 21. The first end of the third connecting rod 53 is hinged to the second bent portion 412 of the crankshaft 41. The first end of the fourth link 54 is hinged to the second end of the third link 53. A second end of the fourth link 54 is fixedly coupled to the chin piece 22. Therefore, the crankshaft 41, the first connecting rod 51, the second connecting rod 52, the third connecting rod 53 and the fourth connecting rod 54 can constitute a crankshaft 41 connecting rod mechanism, so that the operating part can drive the upper jaw 21 and the lower jaw 22 to perform asynchronous movement simultaneously, the upper jaw 21 and the lower jaw 22 can be opened and closed, the structure of the spliced animal model can be simplified, and the control process of the spliced animal model can be simplified.

The crankshaft 41 may optionally have a third bend formed therein, and the transmission may optionally further include a fifth connecting rod 55 and a sixth connecting rod. The first end of the fifth connecting rod 55 is hinged to the third bending portion, the first end of the sixth connecting rod is hinged to the second end of the fifth connecting rod 55, and the second end of the sixth connecting rod is fixedly connected with the tail portion 3. At this time, the crank 41 can drive the tail 3 to swing up and down with respect to the body 1 when rotating. Preferably, in the present embodiment, the transmission mechanism further includes a fifth link 55. The first end of the fifth link 55 is hinged to the second end of the first link 51. The second end of the fifth link 55 is fixedly coupled to the chin portion 22. This enables the first link 51 to be used simultaneously to drive the second link 52 and the fifth link 55 to simultaneously drive the rotation of the upper jaw 21 and the tail 3 relative to the body 1, further simplifying the construction of the jig-saw animal model. Fig. 2 to 5 show the course of motion of the mosaic animal model.

The first link 51, the second link 52, the third link 53, the fourth link 54, and the fifth link 55 may be hinged by a hinge shaft, a connecting column, or a screw. Preferably, in the present embodiment, at least one end of the first, second, third, fourth and fifth links 51, 52, 53, 54 and 55 is formed with a connection ring 56. The connecting ring is suitable for being sleeved on the hinge shaft and rotates relative to the hinge shaft under the action of external force.

Preferably, in the present embodiment, the transmission mechanism further includes a first hinge shaft 57 penetrating at the hinge of the first link 51 and the second link and a second hinge shaft 58 penetrating at the hinge of the third link 53 and the fourth link 54. The first hinge shaft 57 and the second hinge shaft 58 each include a rotation shaft portion and a drop-off prevention plate 571 interposed at a first end of the rotation shaft portion. The swivel part comprises at least two shaft plates 572. One end of at least one shaft plate 572 is formed with a joint 6 extending in the longitudinal direction thereof. The shaft plates 572 are inserted into each other through the insertion joint 6 to form a rotation shaft. The connecting ring 56 is adapted to fit over the hinge shaft, and the connecting rod can rotate along the hinge shaft when the connecting rod is subjected to an external force. The whole transmission mechanism can be formed by splicing the closed patterns on the plate body without introducing external parts, thereby being beneficial to improving the interestingness of the spliced plate. When the shaft portion is formed by splicing the two shaft plates 572, the two shaft plates 572 can form a shaft portion with a cross-shaped radial cross section, which makes the shaft portion and the inner wall of the connecting ring 56 have at least four contact points, and can avoid the collision between the hinge shaft and the connecting ring 56 during the movement of the connecting rod.

In the present embodiment, the crankshaft 41 includes a clamping plate 414 and a plurality of base plates 413 that are stacked. The thickness and strength of the crankshaft 41 can be increased by stacking the plurality of substrates 413, so that the shaking amplitude of the joint of the crankshaft 41 and the connecting ring 56 in the rotation process of the crankshaft 41 can be avoided, the stability of the transmission mechanism is affected, and bending caused by the external force action of the crankshaft 41 in the rotation process can be avoided. The substrate 413 has a joint 6 formed thereon. Clamping protrusions 415 are formed at both ends of the clamping plate 414, respectively. The clamping plate 414 is adapted to be inserted into the insertion seam 6 and to cause the two clamping protrusions 415 to clamp the substrate 413. The clamping plate 414 can compress the plurality of base plates 413 together, so that the crankshaft 41 is prevented from being scattered in the rotation process, and the reliability of the crankshaft 41 is further improved.

In the present embodiment, the manipulation section further includes a grip section provided at one end of the crankshaft 41. The grip portion includes a limiting plate 421 and a lever 424. The limiting plate 421 is formed with a first limiting notch 422 and a second limiting notch 423. The first limiting notch 422 is adapted to receive and limit an end of the crankshaft 41, and the second limiting notch 423 is adapted to receive and limit the lever 424. The first limiting notch 422 not only fixes the limiting plate 421 to the end of the crankshaft 41, but also prevents the plurality of substrates 413 of the crankshaft 41 from being scattered, thereby further improving the stability of the crankshaft 41.

Preferably, in the present embodiment, the body part 1 includes a first casing 12 and a second casing 13 connected in sequence from top to bottom. The first casing 12 communicates with the second casing 13 and the cross-sectional area of the second casing 13 is smaller than that of the first casing 12. The cross-sectional area of the second casing 13 is designed to be smaller than that of the first casing 12, which not only facilitates the holding of the spliced animal model by the hand of the user, but also contributes to the improvement of the beauty of the animal model.

In the present embodiment, a first avoidance gap 121 is formed on the front side of the first case 12. The head further comprises a first adapter plate 23. The first hinge plate 23 is formed with a first hinge hole 231 and a second hinge hole 232 sequentially disposed in the height direction. One of the first adapter plate 23 and the mouth wall of the first avoiding notch 121 is formed with a splice seam 6. The other of the first adapter plate 23 and the mouth wall of the first escape notch 121 is formed with a plugging projection adapted to be inserted into the plugging seam 6. The upper jaw 21 is formed with a first hinge protrusion 211 adapted to hinge with the first hinge hole 231. The lower jaw 22 is formed with a second hinge protrusion 221 adapted to hinge with the second hinge hole 232.

The manner of inserting the upper jaw 21 may be set according to the kind of animal to be simulated by the animal model, for example, in the present embodiment, the animal model is an alligator model. The upper jaw 21 includes an upper jaw plate, a connecting plate, a nose plate, and a tooth plate. The upper jaw plate is formed with a hinge protrusion adapted to hinge with the first hinge hole 231. At least one of the connecting plate and the front end of the upper jaw plate is provided with an inserting joint 6, and the connecting plate and the front end of the upper jaw plate are inserted and connected through the inserting joint 6. At least one of the lower ends of the connecting plate and the nose plate is provided with an inserting joint 6, and the lower ends of the connecting plate and the nose plate are inserted through the inserting joint 6. Two sides of the upper jaw plate are respectively formed with a plug seam 6 extending along the length direction of the upper jaw. The upper end of the tooth plate is formed with a plug-in protrusion adapted to be inserted into the plug-in seam 6. Preferably, in order to make the animal model more vivid, eyes are provided on the front side of the crocodile model. The eyes may be selected from stickers with eye patterns, a pair of insertion seams 6 are formed on the front side of the body part 1, and the animal model further comprises eyes inserted into the insertion seams 6. Preferably, in the present embodiment, the eye portion is formed by inserting a circular plate. Each circular plate is provided with a spigot 6 extending along the radius of the circular plate, and the two circular plates are mutually spliced along the spigot 6 to form a spherical eye.

The chin portion 22 includes a chin plate and a toothed plate. The rear end of the lower jaw plate is formed with a hinge protrusion adapted to hinge with the second hinge hole 232. The two sides of the lower jaw plate are respectively formed with a spigot joint 6 extending along the length direction of the lower jaw plate. The underside of the toothed plate is formed with a plug-in projection adapted to be inserted into the plug-in seam 6.

Preferably, in the present embodiment, the upper jaw plate is preferably at least two and stacked, so that the upper jaw 21 and the lower jaw 22 are prevented from being distorted by external force during the opening and closing process. In this case, the insertion convex portion of the tooth plate is preferably formed with a clamping slit extending in the front-rear direction. When the convex parts of the inserting grooves are inserted into the inserting joints 6, the clamping joints can clamp the upper side and the lower side of the upper jaw plate, so that the upper jaw plate is prevented from being mutually dispersed. The jaws are preferably arranged in a stacked arrangement to avoid twisting of the jaw 22 by external forces during opening and closing.

Preferably, a visor portion is provided on the upper side of the body part 1. The upper side of the first cavity is provided with a plurality of inserting grooves extending along the front-back direction, and the lower side of the skin nail part is provided with inserting convex parts which are suitable for being inserted into the inserting grooves.

A second avoidance gap 122 is formed on the rear side of the first casing 12. The tail 3 further comprises a tail body 32 and a second adapter plate 31. The second adapter plate 31 is formed with a third hinge hole 311. An insertion joint 6 is formed on one of the second adapter plate 31 and the mouth wall of the second avoidance gap 122, an insertion convex part suitable for being inserted into the insertion joint 6 is formed on the other of the second adapter plate 31 and the mouth wall of the second avoidance gap 122, and a third hinging convex part 33 suitable for being hinged with a third hinging hole 311 is formed on the tail body 32.

The tail body 32 preferably includes a fixed plate, a plurality of tail 3 plates, and a drop-off prevention plate 571. The fixing plate is formed with a hinge protrusion adapted to hinge with the third hinge hole 311. At least one of the rear side of the fixing plate and the tail 3 plate is formed with an insert joint 6, and a plurality of tail 3 plates are uniformly inserted into the rear side of the tail 3 plate through the insert joint 6. At least one of the tail 3 plate and the anti-falling plate 571 is provided with an inserting joint 6, and the anti-falling plate 571 is simultaneously inserted with the tail 3 plates, so that the tail 3 plates are limited, and the tail 3 plates are prevented from being scattered or falling.

Although in the present embodiment the animal model is an alligator model, in other embodiments not shown the animal model may also be selected from models of other animals, such as deer, cat, dog, rabbit, dinosaur, fish or birds, etc. The appearance of the animal model may be adjusted according to the kind of animal to be simulated, for example, when the animal model is a deer model, a deer horn may be optionally inserted in the front side of the first housing 12. When the animal model is a rabbit model, rabbit ears may be inserted in the front side of the first case 12.

Example 2

Embodiment 2 relates to a jigsaw animal model comprising a body part 1, a head part, a tail part 3, a manipulating part and a transmission mechanism. Wherein the body part 1 is of a cavity structure. The head comprises an upper jaw 21 and a lower jaw 22 hinged to the front side of the body part 1. The tail 3 is hinged to the rear side of the body part 1. The manipulation part is inserted into the body part 1 and hinged with the body part 1. The transmission mechanism is located in the body part 1 and is connected with the operating part, the upper jaw part 21, the lower jaw part 22 and the tail part 3, and when the operating part is operated to rotate relative to the body part 1, the transmission mechanism can drive the upper jaw part 21 and the lower jaw part 22 to perform opening and closing movement, and the tail part 3 swings up and down relative to the body part 1.

The spliced animal model of the embodiment of the utility model is provided with a head part, a tail part 3, a transmission mechanism and an operating part, and a user can drive the operating part after finishing the splicing and combination of the animal model, so that the transmission mechanism drives the upper jaw part 21 and the lower jaw part 22 to do opening and closing movement, and the tail part 3 swings up and down relative to the body part 1. Therefore, the spliced animal model provided by the embodiment of the utility model has the advantages of higher flexibility and higher interestingness, and can attract the attention of children.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (10)

1. A patch panel comprising a panel body having a plurality of closed figures formed thereon, the closed figures adapted to be released from the panel body by an external force and to be spliced into an animal model, the animal model comprising:

a body part (1), the body part (1) being of a cavity structure;

a head part including an upper jaw part (21) and a lower jaw part (22) hinged to the front side of the body part (1);

-a tail (3) hinged to the rear side of the body part (1);

a manipulation part inserted into the body part (1) and hinged with the body part (1);

the transmission mechanism is positioned in the body part (1) and is connected with the operating part, the upper jaw part (21), the lower jaw part (22) and the tail part (3), when the operating part is operated to rotate relative to the body part (1), the transmission mechanism can drive the upper jaw part (21) and the lower jaw part (22) to do opening and closing movement, and the tail part (3) swings up and down relative to the body part (1).

2. The jigsaw plate according to claim 1, wherein the operating portion comprises a crankshaft (41) having a rotational axis parallel to the rotational axes of the upper jaw portion (21) and the lower jaw portion (22), a first bending portion (411) and a second bending portion (412) are formed on the crankshaft (41), the transmission mechanism comprises a first connecting rod (51), a second connecting rod (52), a third connecting rod (53) and a fourth connecting rod (54), a first end of the first connecting rod (51) is hinged to the first bending portion (411) of the crankshaft (41), a first end of the second connecting rod (52) is hinged to a second end of the first connecting rod (51), a second end of the second connecting rod (52) is fixedly connected to the upper jaw portion (21), a first end of the third connecting rod (53) is hinged to the second bending portion (412) of the crankshaft (41), a first end of the fourth connecting rod (54) is hinged to the second bending portion (53), and a second end of the fourth connecting rod (54) is fixedly connected to the lower jaw portion (22).

3. The jigsaw plate according to claim 2, wherein the transmission mechanism further comprises a fifth link (55), a first end of the fifth link (55) being hinged to a second end of the first link (51), the second end of the fifth link (55) being fixedly connected to the chin portion (22).

4. A patch panel according to claim 3, characterized in that at least one end of the first (51), second (52), third (53), fourth (54) and fifth (55) links is formed with a connecting ring (56).

5. The patch panel according to any one of claims 2 to 4, wherein the transmission mechanism further comprises a first hinge shaft (57) penetrating at a hinge of the first link (51) and the second link and a second hinge shaft (58) penetrating at a hinge of the third link (53) and the fourth link (54), the first hinge shaft (57) and the second hinge shaft (58) each comprise a rotation shaft portion and a drop-off preventing plate (571) interposed at a first end of the rotation shaft portion, the rotation shaft portion comprises at least two shaft plates (572), one end of at least one shaft plate (572) is formed with an insertion joint (6) extending in a length direction thereof, and the shaft plates (572) are mutually inserted through the insertion joint (6) to form a rotation shaft portion.

6. The panel according to any one of claims 2-4, characterized in that the crankshaft (41) comprises a clamping plate (414) and a plurality of base plates (413) arranged in a stacked manner, the base plates (413) being formed with insert joints (6), the clamping plates (414) being formed with clamping projections (415) at both ends, respectively, the clamping plates (414) being adapted to be inserted into the insert joints (6) and to have two of the clamping projections (415) clamping the base plates (413).

7. The patch panel according to any one of claims 2 to 4, wherein the handling portion further comprises a holding portion provided at one end of the crankshaft (41), the holding portion comprising a limiting plate (421) and a handling lever (424), a first limiting notch (422) and a second limiting notch (423) are formed on the limiting plate (421), the first limiting notch (422) is adapted to receive and limit an end of the crankshaft (41), and the second limiting notch (423) is adapted to receive and limit the handling lever (424).

8. Patch panel according to any one of claims 1-4, characterized in that the body part (1) comprises a first tank (12) and a second tank (13) connected in sequence from top to bottom, the first tank (12) being in communication with the second tank (13) and the cross-sectional area of the second tank (13) being smaller than the cross-sectional area of the first tank (12).

9. The jigsaw plate according to claim 8, wherein a first avoidance gap (121) is formed on the front side of the first case (12), the head portion further includes a first hinge plate (23), a first hinge hole (231) and a second hinge hole (232) are formed on the first hinge plate (23) in sequence along the height direction, a plug seam (6) is formed on one of the first hinge plate (23) and the mouth wall of the first avoidance gap (121), a plug protrusion adapted to be inserted into the plug seam (6) is formed on the other of the first hinge plate (23) and the mouth wall of the first avoidance gap (121), a first hinge protrusion (211) adapted to be hinged with the first hinge hole (231) is formed on the upper jaw portion (21), and a second hinge protrusion (221) adapted to be hinged with the second hinge hole (232) is formed on the lower jaw portion (22); and/or the number of the groups of groups,

the rear side of first box (12) is formed with second and dodges breach (122), afterbody (3) still include afterbody main part (32) and second keysets (31), be formed with third hinge hole (311) on second keysets (31), second keysets (31) with be formed with on one of the mouth wall of breach (122) is dodged to the second, second keysets (31) with be formed with on the other of the mouth wall of breach (122) is dodged to the second be suitable for inserting to the grafting convex part in inserting seam (6), be formed with on afterbody main part (32) be suitable for with third hinge convex part (33) that third hinge hole (311) phase articulated.

10. A mosaic animal model comprising:

a body part (1), the body part (1) being of a cavity structure;

a head comprising an upper jaw (21) and a lower jaw (22) hinged to a front side of the body part (1);

-a tail (3) hinged to the rear side of the body part (1);

a manipulation part inserted into the body part (1) and hinged with the body part (1);

the transmission mechanism is positioned in the body part (1) and is connected with the operating part, the upper jaw part (21), the lower jaw part (22) and the tail part (3), when the operating part is operated to rotate relative to the body part (1), the transmission mechanism can drive the upper jaw part (21) and the lower jaw part (22) to do opening and closing movement, and the tail part (3) swings up and down relative to the body part (1).